How to Select a Heat Sink
Heat sinks are not one size fits all. Selecting the wrong one for your device can result in inadequate heat dissipation, leading to slow performance or failure.
Force Sensing Potentiometers Report Touch Position, Variable Force
Ohmite’s FSP Series (Force Sensing Potentiometers) are high-feature-set, cost-effective touch sensors enabling intuitive control and navigation.
Force Sensing Resistors in Three Individual Designs
Force Sensing Resistors offer many benefits for HMI ( Human Machine Interface) sensing in a wide range of markets and applications versus mechanical switching or capacitive sensing.
RoHS-Compliant Power Resistors Ideal for Power Supplies
These three series of RoHS-compliant power resistors from Ohmite are ideal for power supplies along with a range of other applications.
What Engineers Need to Know about Resistors
With so many composition types, power ratings, tolerances, and surge conditions (just to name a few), how can you be sure you’re selecting the best resistor for the job?
Heatsink Mountable; Achieve Maximum Wattage.
An extension of the popular ARCOL HS Series, these aluminum housed resistors are designed to be mounted to a heatsink to achieve maximum wattage.
New Product Introduction: TWW-TWM Series Radial Terminal Power Resistors
The Ohmite TWM/TWW series radial terminal power resistors has officially been extended with two new packages for each element type.
Power Resistors for Motor Braking
Ohmite understands the demand for high current and braking applications. Resistors cover applications ranging from standard current loads to motor braking for trains and elevators.
Heatsink Mountable; Achieve Maximum Wattage.
An extension of the popular ARCOL HS Series, these aluminum housed resistors are designed to be mounted to a heatsink to achieve maximum wattage.
Ohmite’s New High-Quality PCS Series Chip Resistor
Available in three sizes (1206, 2512, and 2728) the new PCS Series from Ohmite is the perfect selection when dealing with high precision, current sensing, and voltage divisions.